Modelling working and reference memory in rats: effects of scopolamine on delayed matching-to-position(1,2).

A model of working and reference memory in rats is described, based on a discrete-trial operant procedure with concurrent components of spatial matching (for working memory) and nonspatial discrimination (for reference memory). On each trial in the matching component, rats received food for pressing one of two retractable levers after a delay if that lever had been presented in the prior sample phase of the trial. On each trial in the discrimination component, food was delivered if the rat pressed a lever illuminated by a cue light after the delay interval. The model was tested with scopolamine (0.10 to 0.56 mg/kg, ip), which reduced matching accuracy in a dose-related manner. Linear slope and intercept estimates of retention gradients showed that intercepts declined and slopes remained unchanged with increasing scopolamine dose. In contrast, scopolamine had no significant effect on nonspatial discrimination accuracy, indicating a relative insensitivity of reference memory to cholinergic blockade. Because the matching component involved spatial cues and the discrimination component did not, a second group of rats was trained to discriminate between the spatial locations of two levers, to compare the effects of scopolamine on spatial and nonspatial discriminations. Scopolamine at the same doses caused a small, consistent decrease in spatial discrimination accuracy, suggesting that spatial discrimination was more sensitive to disruption by scopolamine than was nonspatial discrimination. The combined delayed matching-to-position/nonspatial discrimination procedure appears to provide a useful technique for characterizing mnemonic effects of drugs and toxicants in rats.